piezoelectric voltage generated by piezoelectric sensor

                           

                             piezoelectric voltage generated by piezoelectric sensor

Adding La3 +, Nb5 +, Bi3 + and other additives to the PZT material,which can form Pb2 + vacancies or oxygen vacancies. Since the presence of piezoelectric disk elements changes the movement of the electric crucible, it shows changes in the dielectric constant, elastic compliance coefficient, dielectric loss, and mechanical loss. The study of Nb2O5 piezo electric disc is doped with PZT65/35 prepared by the solid phase method shows that the addition of niobium significantly promotes the densification sintering and suppresses grain growth. The experiment of Li2O doping in 0.2,piezo ceramic cylinder shows that good piezoelectric properties have been synthesized at a low temperature of 950 C. 

Regarding the doping of La3 +, which was doped with La3 + in the sintered PZT sample, and the average grain size and microhardness of piezo cylinder transducer were plotted against the doping amount, as is shown in Figure 2. The performance changes induced by Fe3 + doped PMN-PZN were studied. It was found that the effect of different doping methods on the performance is basically the same, but each has its own advantages and disadvantages. The performance of PMN-PZN at the sintering temperature of 1 210 °C is better, and As the content increases, the grain size of piezoelectric plate sensorgradually increases; the optimum sintering temperature of the sample should increase, the dielectric constant decreases, the loss decreases, the mechanical quality factor increases, and the piezoelectric and electromechanical properties decrease.

 However, the sintering temperature decreases during the experiment. This shows that Fe2O3 has the role of assisting the burning. Studies have shown that doping of Fe3 + reduces the structural loss and conductance loss of the PMnS-PZN-PZT system ceramic and piezo ceramic sphere improves the dielectric loss. The influence of CeO2 doping on PZT was studied and it was found that the crystal grains became smaller after adding CeO2.When the doping amount is 0.4%, the crystal grain size is relatively uniform, and when the doping amount is increased to 0.8%, the crystal grains are not uniform, and small crystal grains that have not yet grown appear. It shows that the proper doping energy is beneficial to the uniform growth of crystal grains, and the excess will cause the ions to accumulate at the grain boundaries to prevent the grain growth.